where a, b, c, d and e are different odd numbers. (The form can’t have four digits on the right, because their product would be too long for the one digit on the left, and it can’t have just two, because their product would be too short.)

Now, consider the possible values of the single-digit multiplier c.

It can’t be 1, because that would mean ab = de, repeating the same digits twice.

It also can’t be 5, because the product of an odd number and 5 always ends in 5, meaning that b would be 5, another repeat.

The value also can’t be 9, because the smallest de with two different odd digits is 13, and 9*13 = 117, which is too long.

And it can’t be 7, because the only de giving a two-digit product would be 13, but the product would be 91, another repeat.

So c must be 3.

Now consider the value of d. It can’t be 3, obviously, and 5, 7 and 9 would give too long of a product. So d must be 1.

This leaves only three possibilities for de: 15, 17 and 19. The corresponding values of ab are 45, 51 and 57. The first two involve repeats, so we have only the solution in the example:

57 = 3 * 19 .

I like these kinds of problems because they involve not only properties of numbers but a fair amount of logic.